This kit is an Optical-triggered Powerful photography flash.
it powers using a 5v source like a wall adapter or 4xAA batteries,
And will automatically fire itself (by optical detection) when another flash is fired
nearby. NEW: Sync socket a 3.5mm sync socket is included to allow triggering by a sync cord.OPTIONAL: You can also trigger the unit with an optocoupler (not included) to allow triggering with micro-processors (read here)

POWERFUL: The 50ws kit fires a flash as powerful as a FULL POWER FLASHGUN.

GREAT for DIY projects:
You can use this board as a basic learning kit on how Xenon flash works, or even use it as a base circuit and modify it according to your project needs.
It can easily help you in lighting different places in a scene or just as background lights... use your imagination !

WARNING:This kit involves High Voltage up to 300v which is stored in big capacitors even long after turning the unit off. THIS VOLTAGE CAN CAUSE SEVERE DAMAGE AND INJURY. Never touch any of the components and always discharge the capacitor before working on it. Always keep in a well insulated project enclosure.

WARNING:This kit involves High Voltage up to 300v which is stored in big capacitors even long after turning the unit off. THIS VOLTAGE CAN CAUSE SEVERE DAMAGE AND INJURY INSTANTLY. Never touch any of the components and always discharge the capacitor before working on it. Always keep in a well insulated project enclosure.BY FOLLOWING THESE INSTRUCTIONS YOU AGREE TO BE THE ONLY RESPONSIBLE FOR ANY DAMAGE THAT MIGHT BE CAUSED BY DOING SO. WORK CAREFULLY AND FOLLOW WARNINGS

Step 1: Place small components

According to the part list, identify R1-R4 using the given color codes or refer to the image below.
Place R1,R2,R3 and R4 on the PCB, polarity doesn't matter.
Go ahead and place C1 and C2. quite simple: C1 is the orange disc shape component, and C2 is the rounded-corners-square green component marked "473".
Now solder them all in place and clip the excessive legs off the solder side.

Step 2: Continued

Now pay attention: insert the D1 diode into it's place, while the diode's marked white side is oriented to the PCB's marked bold white stripe.
Same for LED1, place it into the PCB, with its flat side to the PCB's marked flat side, like explained in the picture below.
Now for Q2 - it is the small black transistor half-round shape - place it into the PCB while its flat side is facing the flat side of the marking.

Step 3: Transformer

Take the T1 square yellow transformer which has 5 pins (T-1610) and place it, should snap in easily, and solder it.
Q1 is the rectangle flat transistor. find its metallic side, and place it into the PCB with the metallic side facing the big transformer. The transistor's marking should be visible to you.
And lastly, the little switch SW1, which comes right near the transformer:

Step 4: Trigger coil and Flash Tube

A little effort, just a few components left: the Trigger coil (yellow, 3 wires) , the U-shape flash tube, and the big capacitor.
The trigger coil T2 should be soldered with the 2-wires side facing down the PCB. the center thick wire
going into the hole in the center of the round PCB marking, and the very thin wire at the same side of the coil is going to the small hole right below the circle.
The remaining third leg facing upwards, should be bent down 180 degrees and
should be soldered in the nearest hole on the right.
Now
solder the FT1 flash tube, while each of the wires snaps easily into their place near the Trigger coil:

Step 5: BIG power !

Place the BIG capacitor C3 into the PCB while the NEGATIVE PIN IS MARKED BY A WHITE STRIPE ALONG IT.
Polarity is extremely important here.
so the marked side of the capacitor faces the "-" side of the PCB marking.

Step 6: Solder Sync port and power source

Place the 3.5mm Sync socket on the corner of the PCB, and solder it. The sync voltage through this socket is about 7v.

If you ordered a battery holder, or want to use a wall adapter, you can solder them directly to the PCB, according to the "PWR" + and - markings.
Don't forget it will accept a voltage of around 5v - 6v
.

OPTIONAL: opto-Isolated triggering

you can trigger the unit using an external 5v pulse source,
like a micro-processor - INSTEAD of triggering with the optical flash detector. This is done by using
a MOC3020 optocoupler (order here)
The optocoupler gives you an optically-isolated interface from the flash circuit power source, and the high voltage part, for a maximum safety.

just solder it in the IC1 place, and solder a 1K resistor (not supplied) at the R5 marking.
As you apply a voltage at the "TRIG" terminals (polarity matters), the unit will trigger the flash.
.

SAFETY GUIDELINES:- Use a project enclosure for the finished circuit
- Never touch any of the components or any other conductive surface EVEN AFTER DISCONNECTED form power !
- Always monitor the big capacitor voltage using a voltmeter if you are unsure !
- Always empty the capacitor before working on the circuit. either trigger a flash after disconnecting power, or by CAREFULLY connecting a 100K resistor
between capacitor's terminals (dont touch it !), and monitor with voltmeter.